SU1713673A1 - Arc-type screen - Google Patents

Abstract

The invention relates to devices for enriching and dewatering granular materials and can be used in the mining industry. The purpose of the invention is to increase the efficiency of dehydration, screening and service life. The screen has an arc sieve (C) 2 located in the housing 5, consisting of interchangeable sections of longitudinal grates. The grate bars have an oval shape of the working surface in cross section and are placed along the axes of the overlap slots of the upper section 02. The starting material is fed into the feed nozzle 1, moving along C 2, it is dehydrated and loosened by the splitters 16 installed between the C 2 sections and protruding above the working surface of the sieve. The dividers are made in the form of a plate with a pointed edge, installed along the axis of the cross-grate gap of the upstream section axis and directed pointed edge against the movement of the material. 2 hp f-ly, 5 IL. SOKICJ

Description

The invention relates to devices for enriching and dewatering granular materials and can be used in the mining industry, in particular for the enrichment and dewatering of sand.

The purpose of the invention is to increase the efficiency of screening dehydration and service life.

FIG. 1 shows an arc screen, general view; in fig. 2 is a section A-A in FIG. one; in fig. 3 is a section BB in FIG. one; in fig. 4 is a view of B in FIG. one; in fig. 5 is a cross-section of the FIG. 2

The arc screen consists of a feed nozzle 1, an arc grate 2, located between the movable guide boards 3 and made of separate sections. The screen bars are longitudinally arranged and have an oval shape in cross section, and the screen sections are interchangeable. The screen bars 2 are mounted on shafts 4, passing into round tide holes from the back of the grid bars and having flats along the entire length of the side walls of the casing 5. The shafts 4 with their flats enter into engagement with the inter-axle washers 6, the holes in which correspond to the shaft section with flats 4 The sieve sections 2 along the shafts 4 between the movable sides 3 and the side walls of the screen body 5 are spring-loaded with coil springs 7, the ends of which are fixed in the sockets 8 on the side walls of the body 5 and the movable sides 3. On the side walls of the screen screen 5 (Fig. 2) there are coaxial trunnions 9 supported. Bearings 10 of the carrier frame 11. To control the discharge angle of the oversize material, a steering wheel 12 is attached to one of the trunnions 9.

Under the discharge end of the last section of the sieve 2, between the side walls of the screen of the screen 5 there is a threshold 13, which prevents the dehydrated material from getting into the slurry tank of the case 5, from which the slurry is discharged through the pipe 14 into the dump.

The transition plates 15 between the sections of the sieve 2 are on the working surface in the form of plates with pointed edges of the dividers 16, the points of which are directed to the middle of the gratic space of the upstream section of the sieve. Dividers protrude above the working surface of the sieve. To rotate the shafts 4 in the sections of the screen 2 screens there are control knobs 17 with a fixing bar 18 and a push-button lock 19. A similar device is available

and on one of the trunnions 9 of the regulator of the discharge angle of the oversite material.

Arc roar works as follows.

The original slurry through the feed

pipe 1 enters the sieve 2, the curvature of which ensures the appearance of radially directed centrifugal forces, under the action of which the process takes place

separating the particulate material by size and dewatering the starting material.

On conventional arc screens with a longitudinal grate arrangement, granular material concentrates over the interglacial gaps due to the tendency of filtered water into the same gaps, as it approaches the discharge end of the sieve, compresses due to the penetration of small particles into the pores between large particles and the best laying . This decreases the filtration rate and the dewatering process deteriorates. In the proposed rumble sitr 2 sectioned. The ribs in the adjacent sections are shifted by half a step.

The dividers 16 on the working surface of the plates 15 with their tips are directed along the axis of the inter-grid slots of the upstream section. The material, gathering along the sieve, runs onto the dividers 16 and, reproducing the new arrangement of the inter-grate slots, loosens, improving filtration permeability.

Thus, the dewatering depth of the particulate material is improved.

Assembling the sieve sections on the rotary shafts 4, which, with their flats, enter into engagement with the inter-grid

by means of washers 6 with a backward tide of the grid-irons with a wedge-shaped, it allows to regulate the size of the gridging gap in a fairly wide range and it is easy to select the optimal

dewatering mode for any grain composition of materials.

The performance of the grate working surfaces in oval cross-section also contributes to the rapid removal of water in

sludge fraction.

As is well known, the arc screen in the head and end (discharge) parts has different wear intensity, therefore making the screen section allows changing the position of the head and end parts in the section itself, as well as the position of the sections in the arc screen, which allows to maintain uniform wear. along the length of the sieve.

Claims (3)

Formula 1, an arc screen, comprising a base mounted body, an arc screen in a case, made entirely of separate sections of grates, and a feed nozzle, characterized in that, in order to increase the efficiency of screen dewatering and service life, the screen is supplied with a splitter In the form of plates with a pointed edge protruding above the working surface of the sieve, the sieve is made with a longitudinal arrangement of the grates, and the dividers are installed between the sections of the sieve along the axles The spruce of the upper section of the pit and is directed with pointed edges against the movement of the material, the sieve sections are made interchangeable with the oval shape of the working surface of the grate in cross section, and the grate are located along the interglacial slots of the upstream section of the sieve. 2. A screen according to claim 1, characterized in that the grate is installed with the possibility of changing the distance between them. 3. The screen according to claim 1, of which is that the case is installed with the possibility of a fixed rotation around the horizontal axis. Vid 15g 16 Yr FIG. five FIG.